3.8 Inverses and radical functions (Page 4/7)

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Find the inverse of the function $f (x) = x^{2} + 1,$ on the domain $x \geq 0.$

$f^{- 1} (x) = \sqrt{x - 1}$

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Solving applications of radical functions

Notice that the functions from previous examples were all polynomials, and their inverses were radical functions. If we want to find the inverse of a radical function , we will need to restrict the domain of the answer because the range of the original function is limited.

How To

Given a radical function, find the inverse.

Determine the range of the original function.
Replace $f (x)$ with $y,$ then solve for $x .$
If necessary, restrict the domain of the inverse function to the range of the original function.

Finding the inverse of a radical function

Restrict the domain and then find the inverse of the function $f (x) = \sqrt{x - 4} .$

Note that the original function has range $f (x) \geq 0.$ Replace $f (x)$ with $y,$ then solve for $x .$

\begin{matrix} y & = \sqrt{x - 4} & Replace f (x) with y . \\ x & = \sqrt{y - 4} & Interchange x and y . \\ x & = \sqrt{y - 4} & Square each side . \\ x^{2} & = y - 4 & Add 4 . \\ x^{2} + 4 & = y & Rename the function f^{- 1} (x) . \\ f^{- 1} (x) & = x^{2} + 4 \end{matrix}

Recall that the domain of this function must be limited to the range of the original function.

f^{- 1} (x) = x^{2} + 4, x \geq 0

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Restrict the domain and then find the inverse of the function $f (x) = \sqrt{2 x + 3} .$

$f^{- 1} (x) = \frac{x^{2} - 3}{2}, x \geq 0$

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Solving applications of radical functions

Radical functions are common in physical models, as we saw in the section opener. We now have enough tools to be able to solve the problem posed at the start of the section.

Solving an application with a cubic function

A mound of gravel is in the shape of a cone with the height equal to twice the radius. The volume of the cone in terms of the radius is given by

V = \frac{2}{3} π r^{3}

Find the inverse of the function $V = \frac{2}{3} π r^{3}$ that determines the volume $V$ of a cone and is a function of the radius $r .$ Then use the inverse function to calculate the radius of such a mound of gravel measuring 100 cubic feet. Use $π = 3.14.$

Start with the given function for $V .$ Notice that the meaningful domain for the function is $r \geq 0$ since negative radii would not make sense in this context. Also note the range of the function (hence, the domain of the inverse function) is $V \geq 0.$ Solve for $r$ in terms of $V,$ using the method outlined previously.

\begin{array}{l} V = \frac{2}{3} π r^{3} \\ r^{3} = \frac{3 V}{2 π} & Solve for r^{3} . \\ r = \sqrt[3]{\frac{3 V}{2 π}} & Solve for r . \end{array}

This is the result stated in the section opener. Now evaluate this for $V = 100$ and $π = 3.14.$

\begin{array}{l} \begin{array}{l} r = \sqrt[3]{\frac{3 V}{2 π}} \end{array} \\ = \sqrt[3]{\frac{3 \cdot 100}{2 \cdot 3.14}} \\ \approx \sqrt[3]{47.7707} \\ \approx 3.63 \end{array}

Therefore, the radius is about 3.63 ft.

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Determining the domain of a radical function composed with other functions

When radical functions are composed with other functions, determining domain can become more complicated.

Finding the domain of a radical function composed with a rational function

Find the domain of the function $f (x) = \sqrt{\frac{(x + 2) (x - 3)}{(x - 1)}} .$

Because a square root is only defined when the quantity under the radical is non-negative, we need to determine where $\frac{(x + 2) (x - 3)}{(x - 1)} \geq 0.$ The output of a rational function can change signs (change from positive to negative or vice versa) at x -intercepts and at vertical asymptotes. For this equation, the graph could change signs at $x$ = –2, 1, and 3.

To determine the intervals on which the rational expression is positive, we could test some values in the expression or sketch a graph. While both approaches work equally well, for this example we will use a graph as shown in [link] .

Graph of a radical function that shows where the outputs are nonnegative.

This function has two x -intercepts, both of which exhibit linear behavior near the x -intercepts. There is one vertical asymptote, corresponding to a linear factor; this behavior is similar to the basic reciprocal toolkit function, and there is no horizontal asymptote because the degree of the numerator is larger than the degree of the denominator. There is a y -intercept at $(0, 6) .$

From the y -intercept and x -intercept at $x = - 2,$ we can sketch the left side of the graph. From the behavior at the asymptote, we can sketch the right side of the graph.

From the graph, we can now tell on which intervals the outputs will be non-negative, so that we can be sure that the original function $f (x)$ will be defined. $f (x)$ has domain $- 2 \leq x < 1 or x \geq 3,$ or in interval notation, $[- 2, 1) \cup [3, \infty) .$

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Source: OpenStax, Precalculus. OpenStax CNX. Jan 19, 2016 Download for free at https://legacy.cnx.org/content/col11667/1.6

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